// Copyright (C) 2024 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only

#include "tst_gstreamer_backend.h"

#include <QtTest/QtTest>
#include <QtMultimedia/qmediaformat.h>

#include <QtGstreamerMediaPluginImpl/private/qgst_handle_types_p.h>
#include <QtGstreamerMediaPluginImpl/private/qgst_p.h>
#include <QtGstreamerMediaPluginImpl/private/qgst_debug_p.h>
#include <QtGstreamerMediaPluginImpl/private/qgst_discoverer_p.h>
#include <QtGstreamerMediaPluginImpl/private/qgstpipeline_p.h>
#include <QtGstreamerMediaPluginImpl/private/qgstreamermetadata_p.h>

#include <set>
#include <variant>

#include <gst/gstversion.h>

QT_USE_NAMESPACE

// NOLINTBEGIN(readability-convert-member-functions-to-static)

using namespace Qt::Literals;

namespace {

template <typename... Pairs>
QMediaMetaData makeQMediaMetaData(Pairs &&...pairs)
{
    QMediaMetaData metadata;

    auto addKeyValuePair = [&](auto &&pair) {
        metadata.insert(pair.first, pair.second);
        return;
    };

    (addKeyValuePair(pairs), ...);

    return metadata;
}

QGString makeQGString(std::string_view str)
{
    char *s = (char *)g_malloc(str.size() + 1);
    snprintf(s, str.size() + 1, "%s", str.data());
    return QGString{ s };
};

const bool validateBitRates = GST_CHECK_VERSION(1, 24, 0);

} // namespace

QGstTagListHandle tst_GStreamer::parseTagList(const char *str)
{
    QGstTagListHandle tagList{
        gst_tag_list_new_from_string(str),
        QGstTagListHandle::HasRef,
    };
    return tagList;
}

QGstTagListHandle tst_GStreamer::parseTagList(const QByteArray &ba)
{
    return parseTagList(ba.constData());
}

void tst_GStreamer::QGString_conversions()
{
    QGString str = makeQGString("yada");

    QCOMPARE(str.toQString(), u"yada"_s);
    QCOMPARE(str.asStringView(), "yada"_L1);
    QCOMPARE(str.asByteArrayView(), "yada"_ba);
}

void tst_GStreamer::QGString_transparentCompare()
{
    QGString str = makeQGString("yada");

    std::set<QByteArray, std::less<>> set;
    set.emplace(str);

    QVERIFY(set.find(str) != set.end());
}

void tst_GStreamer::qGstCasts_withElement()
{
    QGstElement element = QGstElement::createFromFactory("identity", "myPipeline");
    QVERIFY(element);

    QVERIFY(!qIsGstObjectOfType<GstPipeline>(element.element()));
    QVERIFY(!qIsGstObjectOfType<GstBin>(element.element()));
}

void tst_GStreamer::qGstCasts_withBin()
{
    QGstBin bin = QGstBin::create("bin");
    QVERIFY(bin);

    QVERIFY(!qIsGstObjectOfType<GstPipeline>(bin.element()));
    QVERIFY(qIsGstObjectOfType<GstBin>(bin.element()));
}

void tst_GStreamer::qGstCasts_withPipeline()
{
    QGstPipeline pipeline = QGstPipeline::create("myPipeline");

    QGstElement element{
        qGstSafeCast<GstElement>(pipeline.pipeline()),
        QGstElement::NeedsRef,
    };

    QVERIFY(element);
    QVERIFY(qIsGstObjectOfType<GstPipeline>(element.element()));
    QVERIFY(qIsGstObjectOfType<GstBin>(element.element()));
}

void tst_GStreamer::metadata_taglistToMetaData()
{
    QGstTagListHandle tagList = parseTagList(R"(taglist, title="My Video", comment="yada")");

    QMediaMetaData parsed = taglistToMetaData(tagList);

    QCOMPARE(parsed.stringValue(QMediaMetaData::Title), u"My Video"_s);
    QCOMPARE(parsed.stringValue(QMediaMetaData::Comment), u"yada"_s);
}

void tst_GStreamer::metadata_taglistToMetaData_extractsOrientation()
{
    QFETCH(QByteArray, taglist);
    QFETCH(QtVideo::Rotation, rotation);

    QGstTagListHandle tagList = parseTagList(taglist);
    QMediaMetaData parsed = taglistToMetaData(tagList);
    QCOMPARE(parsed[QMediaMetaData::Orientation].value<QtVideo::Rotation>(), rotation);
}

void tst_GStreamer::metadata_taglistToMetaData_extractsOrientation_data()
{
    QTest::addColumn<QByteArray>("taglist");
    QTest::addColumn<QtVideo::Rotation>("rotation");

    QTest::newRow("no rotation") << R"(taglist, title="My Video", comment="yada")"_ba
                                 << QtVideo::Rotation::None;
    QTest::newRow("90 degree")
            << R"(taglist, title="My Video", comment="yada", image-orientation=(string)rotate-90)"_ba
            << QtVideo::Rotation::Clockwise90;
    QTest::newRow("180 degree")
            << R"(taglist, title="My Video", comment="yada", image-orientation=(string)rotate-180)"_ba
            << QtVideo::Rotation::Clockwise180;
    QTest::newRow("270 degree")
            << R"(taglist, title="My Video", comment="yada", image-orientation=(string)rotate-270)"_ba
            << QtVideo::Rotation::Clockwise270;
}

void tst_GStreamer::metadata_taglistToMetaData_extractsDuration()
{
    QGstTagListHandle tagList = parseTagList(
            R"__(taglist, video-codec=(string)"On2\ VP9",  container-specific-track-id=(string)1, extended-comment=(string){ "ALPHA_MODE\=1", "HANDLER_NAME\=Apple\ Video\ Media\ Handler", "VENDOR_ID\=appl", "TIMECODE\=00:00:00:00", "DURATION\=00:00:00.400000000" }, encoder=(string)"Lavc59.37.100\ libvpx-vp9")__");

    QMediaMetaData parsed = taglistToMetaData(tagList);
    QCOMPARE(parsed[QMediaMetaData::Duration].value<int>(), 400);
}

void tst_GStreamer::metadata_taglistToMetaData_extractsLanguage()
{
    QFETCH(QByteArray, tagListString);
    QFETCH(QLocale::Language, language);

    QGstTagListHandle tagList = parseTagList(tagListString);
    QVERIFY(tagList);

    QMediaMetaData parsed = taglistToMetaData(tagList);
    QCOMPARE(parsed[QMediaMetaData::Language].value<QLocale::Language>(), language);
}

void tst_GStreamer::metadata_taglistToMetaData_extractsLanguage_data()
{
    QTest::addColumn<QByteArray>("tagListString");
    QTest::addColumn<QLocale::Language>("language");

    QTest::newRow("english, en")
            << R"__(taglist, container-format=(string)Matroska, audio-codec=(string)"MPEG-4\ AAC", language-code=(string)en, container-specific-track-id=(string)5, encoder=(string)Lavf60.16.100, extended-comment=(string)"DURATION\=00:00:05.055000000")__"_ba
            << QLocale::Language::English;
    QTest::newRow("spanish, es")
            << R"__(taglist, container-format=(string)Matroska, audio-codec=(string)"MPEG-4\ AAC", language-code=(string)es, container-specific-track-id=(string)5, encoder=(string)Lavf60.16.100, extended-comment=(string)"DURATION\=00:00:05.055000000")__"_ba
            << QLocale::Language::Spanish;
    QTest::newRow("english, eng")
            << R"__(taglist, container-format=(string)Matroska, audio-codec=(string)"MPEG-4\ AAC", language-code=(string)eng, container-specific-track-id=(string)5, encoder=(string)Lavf60.16.100, extended-comment=(string)"DURATION\=00:00:05.055000000")__"_ba
            << QLocale::Language::English;
    QTest::newRow("spanish, spa")
            << R"__(taglist, container-format=(string)Matroska, audio-codec=(string)"MPEG-4\ AAC", language-code=(string)spa, container-specific-track-id=(string)5, encoder=(string)Lavf60.16.100, extended-comment=(string)"DURATION\=00:00:05.055000000")__"_ba
            << QLocale::Language::Spanish;
}

void tst_GStreamer::metadata_taglistToMetaData_extractsDate()
{
    QFETCH(QByteArray, tagListString);
    QFETCH(QDateTime, expectedDate);

    QGstTagListHandle tagList = parseTagList(tagListString);
    QVERIFY(tagList);

    QMediaMetaData parsed = taglistToMetaData(tagList);
    QCOMPARE(parsed[QMediaMetaData::Date].value<QDateTime>(), expectedDate);
}

void tst_GStreamer::metadata_taglistToMetaData_extractsDate_data()
{
    QTest::addColumn<QByteArray>("tagListString");
    QTest::addColumn<QDateTime>("expectedDate");

    QTest::newRow("datetime") << R"__(taglist, datetime=(datetime)2024)__"_ba
                              << QDateTime(QDate(2024, 0, 0), QTime{});
    QTest::newRow("date") << R"__(taglist, date=(date)2024-01-01)__"_ba
                          << QDateTime(QDate(2024, 1, 1), QTime{});
    QTest::newRow("date and datetime")
            << R"__(taglist, datetime=(datetime)2024, date=(date)2024-01-01)__"_ba
            << QDateTime(QDate(2024, 1, 1), QTime{});
}

void tst_GStreamer::metadata_capsToMetaData()
{
    QFETCH(QByteArray, capsString);
    QFETCH(QMediaMetaData, expectedMetadata);

    QGstCaps caps{
        gst_caps_from_string(capsString.constData()),
        QGstCaps::HasRef,
    };

    QMediaMetaData md = capsToMetaData(caps);

    QCOMPARE(md, expectedMetadata);
}

void tst_GStreamer::metadata_capsToMetaData_data()
{
    using Key = QMediaMetaData::Key;
    using KVPair = std::pair<QMediaMetaData::Key, QVariant>;

    auto makeKVPair = [](Key key, auto value) {
        return KVPair{
            key,
            QVariant::fromValue(value),
        };
    };

    QTest::addColumn<QByteArray>("capsString");
    QTest::addColumn<QMediaMetaData>("expectedMetadata");

    QTest::newRow("container") << R"(video/quicktime, variant=(string)iso)"_ba
                               << makeQMediaMetaData(makeKVPair(Key::FileFormat,
                                                                QMediaFormat::FileFormat::MPEG4));

    QTest::newRow("video")
            << R"(video/x-h264, stream-format=(string)avc, alignment=(string)au, level=(string)3.1, profile=(string)main, codec_data=(buffer)014d401fffe10017674d401fda014016ec0440000003004000000c83c60ca801000468ef3c80, width=(int)1280, height=(int)720, framerate=(fraction)25/1, pixel-aspect-ratio=(fraction)1/1)"_ba
            << makeQMediaMetaData(makeKVPair(Key::VideoCodec, QMediaFormat::VideoCodec::H264),
                                  makeKVPair(Key::VideoFrameRate, 25),
                                  makeKVPair(Key::Resolution, QSize(1280, 720)));

    QTest::newRow("audio")
            << R"(audio/mpeg, mpegversion=(int)4, framed=(boolean)true, stream-format=(string)raw, level=(string)4, base-profile=(string)lc, profile=(string)lc, codec_data=(buffer)11b0, rate=(int)48000, channels=(int)6)"_ba
            << makeQMediaMetaData(makeKVPair(Key::AudioCodec, QMediaFormat::AudioCodec::AAC));
}

void tst_GStreamer::parseRotationTag_returnsCorrectResults()
{
    QCOMPARE_EQ(parseRotationTag("rotate-0"), (RotationResult{ QtVideo::Rotation::None, false }));
    QCOMPARE_EQ(parseRotationTag("rotate-90"),
                (RotationResult{ QtVideo::Rotation::Clockwise90, false }));
    QCOMPARE_EQ(parseRotationTag("rotate-180"),
                (RotationResult{ QtVideo::Rotation::Clockwise180, false }));
    QCOMPARE_EQ(parseRotationTag("rotate-270"),
                (RotationResult{ QtVideo::Rotation::Clockwise270, false }));

    QCOMPARE_EQ(parseRotationTag("flip-rotate-0"),
                (RotationResult{ QtVideo::Rotation::Clockwise180, true }));
    QCOMPARE_EQ(parseRotationTag("flip-rotate-90"),
                (RotationResult{ QtVideo::Rotation::Clockwise270, true }));
    QCOMPARE_EQ(parseRotationTag("flip-rotate-180"),
                (RotationResult{ QtVideo::Rotation::None, true }));
    QCOMPARE_EQ(parseRotationTag("flip-rotate-270"),
                (RotationResult{ QtVideo::Rotation::Clockwise90, true }));
}

void tst_GStreamer::QGstBin_createFromPipelineDescription()
{
    QGstBin bin = QGstBin::createFromPipelineDescription("identity name=foo ! identity name=bar");

    QVERIFY(bin);
    QVERIFY(bin.findByName("foo"));
    QCOMPARE_EQ(bin.findByName("foo").getParent(), bin);
    QVERIFY(bin.findByName("bar"));
    QVERIFY(!bin.findByName("baz"));
    bin.dumpGraph("QGstBin_createFromPipelineDescription");
}

void tst_GStreamer::QGstElement_createFromPipelineDescription()
{
    using namespace std::string_view_literals;
    QGstElement element = QGstElement::createFromPipelineDescription("identity name=foo");
    QCOMPARE_EQ(element.name(), "foo"sv);
    QCOMPARE_EQ(element.typeName(), "GstIdentity"sv);
}

void tst_GStreamer::QGstElement_createFromPipelineDescription_multipleElementsCreatesBin()
{
    using namespace std::string_view_literals;
    QGstElement element =
            QGstElement::createFromPipelineDescription("identity name=foo ! identity name=bar");

    QVERIFY(element);
    QCOMPARE_EQ(element.typeName(), "GstPipeline"sv);

    QGstBin bin{
        qGstSafeCast<GstBin>(element.element()),
        QGstBin::NeedsRef,
    };

    QVERIFY(bin);
    QVERIFY(bin.findByName("foo"));
    QCOMPARE_EQ(bin.findByName("foo").getParent(), bin);
    QVERIFY(bin.findByName("bar"));
    QVERIFY(!bin.findByName("baz"));

    bin.dumpGraph("QGstElement_createFromPipelineDescription_multipleElements");
}

void tst_GStreamer::QGstPad_inferTypeFromName()
{
    auto makePad = [](const char *name, GstPadDirection direction) {
        return QGstPad{
            gst_pad_new(name, direction),
            QGstPad::NeedsRef,
        };
    };

    QVERIFY(makePad("audio_0", GST_PAD_SRC).inferTrackTypeFromName()
            == QPlatformMediaPlayer::AudioStream);
    QVERIFY(makePad("video_0", GST_PAD_SRC).inferTrackTypeFromName()
            == QPlatformMediaPlayer::VideoStream);
    QVERIFY(makePad("text_0", GST_PAD_SRC).inferTrackTypeFromName()
            == QPlatformMediaPlayer::SubtitleStream);
    QVERIFY(makePad("src_0", GST_PAD_SRC).inferTrackTypeFromName() == std::nullopt);
    QVERIFY(makePad("text", GST_PAD_SRC).inferTrackTypeFromName() == std::nullopt);
}

void tst_GStreamer::qDebug_GstPadDirection()
{
    auto validate = [](GstPadDirection direction, QString expectedString) {
        QString str;
        QDebug dbg(&str);

        dbg << direction;

        QCOMPARE_EQ(str, expectedString);
    };

    validate(GST_PAD_UNKNOWN, u"GST_PAD_UNKNOWN "_s);
    validate(GST_PAD_SRC, u"GST_PAD_SRC "_s);
    validate(GST_PAD_SINK, u"GST_PAD_SINK "_s);
}

void tst_GStreamer::qDebug_GstStreamStatusType()
{
    auto validate = [](GstStreamStatusType type, QString expectedString) {
        QString str;
        QDebug dbg(&str);

        dbg << type;

        QCOMPARE_EQ(str, expectedString);
    };

    validate(GST_STREAM_STATUS_TYPE_CREATE, u"GST_STREAM_STATUS_TYPE_CREATE "_s);
    validate(GST_STREAM_STATUS_TYPE_ENTER, u"GST_STREAM_STATUS_TYPE_ENTER "_s);
    validate(GST_STREAM_STATUS_TYPE_LEAVE, u"GST_STREAM_STATUS_TYPE_LEAVE "_s);
    validate(GST_STREAM_STATUS_TYPE_DESTROY, u"GST_STREAM_STATUS_TYPE_DESTROY "_s);
    validate(GST_STREAM_STATUS_TYPE_START, u"GST_STREAM_STATUS_TYPE_START "_s);
    validate(GST_STREAM_STATUS_TYPE_PAUSE, u"GST_STREAM_STATUS_TYPE_PAUSE "_s);
    validate(GST_STREAM_STATUS_TYPE_STOP, u"GST_STREAM_STATUS_TYPE_STOP "_s);
}

void tst_GStreamer::QGstStructureView_parseCameraFormat()
{
    auto makeStructure = [](const char *str) {
        return QUniqueGstStructureHandle{
            gst_structure_new_from_string(str),
        };
    };

    auto compareFraction = [](std::optional<Fraction> lhs, Fraction rhs) {
        if (!lhs)
            return false;
        return std::tie(lhs->numerator, lhs->denominator)
                == std::tie(rhs.numerator, rhs.denominator);
    };

    // single frame rate (taken from Logitech Brio 300)
    {
        auto structure = makeStructure(
                R"__(video/x-raw, format=(string)YUY2, width=(int)1920, height=(int)1080, pixel-aspect-ratio=(fraction)1/1, framerate=(fraction)5/1)__");

        Fraction expectedFracion{ 1, 1 };
        QGRange<float> expectedFramerateRange{ 5, 5 };

        QCOMPARE(QGstStructureView(structure).resolution(), QSize(1920, 1080));
        QVERIFY(compareFraction(QGstStructureView(structure).pixelAspectRatio(), expectedFracion));
        QCOMPARE(QGstStructureView(structure).frameRateRange(), expectedFramerateRange);
        QCOMPARE(QGstStructureView(structure).pixelFormat(),
                 QVideoFrameFormat::PixelFormat::Format_YUYV);
    }

    // multiple frame rates (taken from Logitech Brio 300)
    {
        auto structure = makeStructure(
                R"__(video/x-raw, format=(string)YUY2, width=(int)640, height=(int)480, pixel-aspect-ratio=(fraction)1/1, framerate=(fraction){ 30/1, 24/1, 20/1, 15/1, 10/1, 15/2, 5/1 })__");

        Fraction expectedFracion{ 1, 1 };
        QGRange<float> expectedFramerateRange{ 5, 30 };

        QCOMPARE(QGstStructureView(structure).resolution(), QSize(640, 480));
        QVERIFY(compareFraction(QGstStructureView(structure).pixelAspectRatio(), expectedFracion));
        QCOMPARE(QGstStructureView(structure).frameRateRange(), expectedFramerateRange);
        QCOMPARE(QGstStructureView(structure).pixelFormat(),
                 QVideoFrameFormat::PixelFormat::Format_YUYV);
    }

    // jpeg (taken from Logitech Brio 300)
    {
        auto structure = makeStructure(
                R"__(image/jpeg, parsed=(boolean)true, width=(int)1920, height=(int)1080, pixel-aspect-ratio=(fraction)1/1, framerate=(fraction){ 30/1, 24/1, 20/1, 15/1, 10/1, 15/2, 5/1 })__");

        Fraction expectedFracion{ 1, 1 };
        QGRange<float> expectedFramerateRange{ 5, 30 };

        QCOMPARE(QGstStructureView(structure).resolution(), QSize(1920, 1080));
        QVERIFY(compareFraction(QGstStructureView(structure).pixelAspectRatio(), expectedFracion));
        QCOMPARE(QGstStructureView(structure).frameRateRange(), expectedFramerateRange);
        QCOMPARE(QGstStructureView(structure).pixelFormat(),
                 QVideoFrameFormat::PixelFormat::Format_Jpeg);
    }

    // steped frame rate, undefined frame rate (taken from Raspberry Pi 4, Camera Module v2)
    {
        QGRange<float> expectedFramerateRange{ 0.0, 2147483647.0 };

        auto cameraFormat = makeStructure(
                R"__(video/x-raw, format=(string)YUY2, width=(int)[ 64, 16384, 2 ], height=(int)[ 64, 16384, 2 ], framerate=(fraction)[ 0/1, 2147483647/1 ])__");

        QCOMPARE(QGstStructureView(cameraFormat).pixelAspectRatio(), std::nullopt);
        QCOMPARE(QGstStructureView(cameraFormat).frameRateRange(), expectedFramerateRange);
        QCOMPARE(QGstStructureView(cameraFormat).pixelFormat(),
                 QVideoFrameFormat::PixelFormat::Format_YUYV);
    }

    // steped frame rate, valid rate range (taken from Raspberry Pi 4, Camera Module v2)
    {
        auto cameraFormat = makeStructure(
                R"__(video/x-raw, format=(string)YUY2, width=(int)[ 32, 3280, 2 ], height=(int)[ 32, 2464, 2 ], framerate=(fraction)[ 1/1, 90/1 ])__");

        QGRange<float> expectedFramerateRange{ 1.0, 90.0 };
        QGRange<QSize> expectedResolutionRange{
            QSize(32, 32),
            QSize(3280, 2464),
        };

        QCOMPARE(QGstStructureView(cameraFormat).resolutionRange(), expectedResolutionRange);
        QCOMPARE(QGstStructureView(cameraFormat).pixelAspectRatio(), std::nullopt);
        QCOMPARE(QGstStructureView(cameraFormat).frameRateRange(), expectedFramerateRange);
        QCOMPARE(QGstStructureView(cameraFormat).pixelFormat(),
                 QVideoFrameFormat::PixelFormat::Format_YUYV);
    }
}

using MediaSource = std::variant<QUrl, std::shared_ptr<QTemporaryFile>, std::shared_ptr<QIODevice>>;

template <class... Ts>
struct qOverloadedVisitor : Ts...
{
    using Ts::operator()...;
};
template <class... Ts>
qOverloadedVisitor(Ts...) -> qOverloadedVisitor<Ts...>;

void tst_GStreamer::QGstDiscoverer_discoverMedia()
{
    using namespace Qt::Literals;
    using namespace QGst;
    using namespace std::chrono_literals;

    QFETCH(MediaSource, media);

    QGstDiscoverer discoverer;

    auto discoverUrl = [&](const QUrl &media) {
        return discoverer.discover(media);
    };
    auto discoverFromFile = [&](const std::shared_ptr<QTemporaryFile> &media) {
        return discoverer.discover(QUrl::fromLocalFile(media->fileName()));
    };
    auto discoverFromStream = [&](const std::shared_ptr<QIODevice> &media) {
        return discoverer.discover(media.get());
    };

    auto result = std::visit(
            qOverloadedVisitor{
                    discoverUrl,
                    discoverFromFile,
                    discoverFromStream,
            },
            media);

    QVERIFY(result);
    QVERIFY(!result->isLive);
    QVERIFY(result->isSeekable);
    QCOMPARE(result->videoStreams.size(), 1u);
    QCOMPARE(result->audioStreams.size(), 1u);
    QCOMPARE(result->duration, 1003000000ns);

    using Key = QMediaMetaData::Key;

    // container metadata
    QMediaMetaData containerMetaData = toContainerMetadata(*result);
    QCOMPARE(containerMetaData.value(Key::AlbumTitle), u"My Album"_s);
    QCOMPARE(containerMetaData.value(Key::ContributingArtist), u"My Artist"_s);
    QCOMPARE(containerMetaData.value(Key::Title), u"My Title"_s);
    // QCOMPARE(containerMetaData.value(Key::Date), u"My Album"s);

    // video metadata
    QMediaMetaData videoStreamMetaData = toStreamMetadata(result->videoStreams[0]);
    QCOMPARE(videoStreamMetaData.value(Key::Resolution), QSize(1920, 1080));
    if (validateBitRates)
        QCOMPARE(videoStreamMetaData.value(Key::VideoBitRate), 30029);
    QCOMPARE(videoStreamMetaData.value(Key::VideoFrameRate), 25);
    QCOMPARE(videoStreamMetaData.value(Key::VideoCodec).value<QMediaFormat::VideoCodec>(),
             QMediaFormat::VideoCodec::H265);

    // audio metadata
    QMediaMetaData audioStreamMetaData = toStreamMetadata(result->audioStreams[0]);
    if (validateBitRates)
        QCOMPARE(audioStreamMetaData.value(Key::AudioBitRate), 159554);
    QCOMPARE(audioStreamMetaData.value(Key::Language), QLocale::Language::AnyLanguage);
}

void tst_GStreamer::QGstDiscoverer_discoverMedia_data()
{
    QTest::addColumn<MediaSource>("media");

    auto makeTemporaryFile = [] {
        auto file = QFile(":/metadata_test_file.mp4");
        return std::shared_ptr<QTemporaryFile>(QTemporaryFile::createNativeFile(file));
    };

    QTest::newRow("qrc") << MediaSource{
        QUrl("qrc:/metadata_test_file.mp4"),
    };
    QTest::newRow("QIODevice") << MediaSource{
        std::make_shared<QFile>(":/metadata_test_file.mp4"),
    };

    QTest::newRow("filesystem file") << MediaSource{
        makeTemporaryFile(),
    };
}

void tst_GStreamer::QGstDiscoverer_discoverMedia_withRotation()
{
    using namespace QGst;

    QGstDiscoverer discoverer;
    auto result = discoverer.discover(QUrl("qrc:/color_matrix_90_deg_clockwise.mp4"));

    QMediaMetaData videoStreamMetaData = toStreamMetadata(result->videoStreams[0]);

    QCOMPARE(videoStreamMetaData.value(QMediaMetaData::Key::Orientation).value<QtVideo::Rotation>(),
             QtVideo::Rotation::Clockwise90);
}

void tst_GStreamer::QGstDiscoverer_filtersOutVideoStream_whenStreamIdIsNull()
{
    using namespace QGst;

    QGstDiscoverer discoverer;
    auto result = discoverer.discover(QUrl("qrc:/color_matrix_90_deg_clockwise.m2v"));

    QCOMPARE_EQ(result->videoStreams.size(), 1u);
    QVERIFY(!result->videoStreams[0].streamID.isNull());
}

QTEST_GUILESS_MAIN(tst_GStreamer)

#include "moc_tst_gstreamer_backend.cpp"
